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Accurate, repeatable, and geometrically precise diffusion-weighted imaging on a 0.35 T magnetic resonance imaging-guided linear accelerator

Joseph Weygand, Tess Armstrong, John Michael Bryant, Jacqueline M. Andreozzi, Ibrahim Oraiqat, Steven J. Nichols, Casey Liveringhouse, Kujtim Latifi, Kosj Yamoah, James Costello, Jessica M. Frakes, Eduardo G. Moros, Issam El Naqa, A.O. Naghavi, Stephen A. Rosenberg, Gage Redler

2023Physics and Imaging in Radiation Oncology16 citationsDOIOpen Access PDF

Abstract

Background and Purpose Diffusion weighted imaging (DWI) allows for the interrogation of tissue cellularity, which is a surrogate for cellular proliferation. Previous attempts to incorporate DWI into the workflow of a 0.35 T MR-linac (MRL) have lacked quantitative accuracy. In this study, accuracy, repeatability, and geometric precision of apparent diffusion coefficient (ADC) maps produced using an echo planar imaging (EPI)-based DWI protocol on the MRL system is illustrated, and in vivo potential for longitudinal patient imaging is demonstrated. Materials and Methods Accuracy and repeatability were assessed by measuring ADC values in a diffusion phantom at three timepoints and comparing to reference ADC values. System-dependent geometric distortion was quantified by measuring the distance between 93 pairs of phantom features on ADC maps acquired on a 0.35 T MRL and a 3.0 T diagnostic scanner and comparing to spatially precise CT images. Additionally, for five sarcoma patients receiving radiotherapy on the MRL, same-day in vivo ADC maps were acquired on both systems, one of which at multiple timepoints. Results Phantom ADC quantification was accurate on the 0.35 T MRL with significant discrepancies only seen at high ADC. Average geometric distortions were 0.35 (±0.02) mm and 0.85 (±0.02) mm in the central slice and 0.66 (±0.04) mm and 2.14 (±0.07) mm at 5.4 cm off-center for the MRL and diagnostic system, respectively. In the sarcoma patients, a mean pretreatment ADC of 910x10 -6 (±100x10 -6 ) mm 2 /s was measured on the MRL. Conclusions The acquisition of accurate, repeatable, and geometrically precise ADC maps is possible at 0.35 T with an EPI approach.

Topics & Concepts

Imaging phantomRepeatabilityNuclear medicineEffective diffusion coefficientMagnetic resonance imagingScannerDiffusion MRIEcho-planar imagingMedical imagingMedicineBiomedical engineeringPhysicsRadiologyMathematicsOpticsStatisticsAdvanced MRI Techniques and ApplicationsMRI in cancer diagnosisMedical Imaging Techniques and Applications
Accurate, repeatable, and geometrically precise diffusion-weighted imaging on a 0.35 T magnetic resonance imaging-guided linear accelerator | Litcius